Cloth-measuring and price-computing machine.



W. F. GOESSLING, H. E. PAUK, G. M. KAOHEL & O. A. HECKEL GLO'I'H MEASURING AND PRICE COMPUTING MACHINE.

APPLIOATION FILED 00T.1l, 1909. Patented July 16, 1912.

10 SHEETS-SHEET 1.

W. P. GO'BSSLING, H. E. PAUK, c. M. KAGHEL & 0. A. HECKEL.

CLOTH MEASURING AND PRICE COMPUTING MACHINE. 1,08%,538..

APPLICATION FILED O0T.11, 1909.

' Patented July 16, 1912.

10 SHEETSSHEET 2.

W. F. GOESSLING, H. E. PAUK, G. M. KACHEL & 0. A. HEGKEL.

CLOTH MEASURING AND PRICE GOMPUTING MACHINE. 1.033.538.

APPLICATION FILED 0GT.11, 1909.

Patented July 16, 1912,

10 SHEETS-SHEET 3.

W. F. GOESSLING, H. E. PAUK, G. M. -KAGHEL & O. A. HECKEL.

CLOTH MEASURING AND PRICE COMPUTING MACHINE. V

' APPLIOATIOK FILED 001211, 1909.

1,032,538. Patented July 16, 1912.

10 SHBETSHEET 4.

V W. F. GOESSLINGy-H. E, PAUK, 0. KAGHEL & 0. A. HEOKEL.

CLOTH MEASURING AND PRICE COMPUTING MACHINE.

' APPLICATION FILED 0GT.11, 1909. 1,032,53&

Patented Jul 16, 1912.

10 SHBETSSHEET 5.

Nw mw W. F. GOESSLING, H. E. PAUK, G. M. KAOHEL & 0. A. HEGKEL.

OLO TH MEASURING AND PRICE COMPUTING MACHINE.

APPLICATION FILED .0OT.1-1, 1909.

10 SHEETS-SHEET 8.

Patented July 16, 1912.

an 2 W8 2 NS 2 am i 3 Emma an ma 3 R h mfi W. F. GOESSLING, H. E. PAUK, G. M. KAOHBL & O. A. HEOKEL.

CLOTH MEASURING AND PRICE COMPUTING MACHINE.

Patented Ju1y 16, 1912.

' APPLICATION FILED 0CT.11, 1909. 1,039,53.

10 SHEETS-SHEET 7.

W P. GOBSSLING; H. E. PAUK, O. M. KAGHEL & 0,. A. HEOKEL. CLOTH MEASURING AND PRICE COMPUTING MACHINE.

APPLICATION FILED ()OT. 11', 1909. 1 ,032,53, Patented July 16, 1912 10 SKEBTSSHEET 8 Vi n W. P. GQESSLING, H. E. PAUK, G. M. KAGHEL & 0. A. HEUKEL.

-BLOTH MEASURING AND PRICE GOMPUTING MACHINE.

' APPLIUATIOI} FILED 001211, 1909.

Patented July 16, 1912.

SHEET 9.

10 SHEETS W. F. GOESSLING, H. E. PAUK, G. M. KACHEL & 0. A. HE'OKEL.

CLOTH MEASUBINGAND PRICE COMPUTING MACHINE.

APPLICATION FILED OGT.11,1-909.

Patented July 16, 11912.

l0 SHEETS-SHEET 10,

tl l it'll llt lPL tTlEhl @FllC.

WILLIAIVLF. GOESSLING, HENRY E. PAUK, CHARLES M. RACHEL, AND OTTO A. HECKEL, OF ST. LOUIS, MISSOURI, ASSIGNORS T0 CLOTHIVIETER MANUFACTURING COMPANY,

A CORPORATION OF MISSOURI.

CLOTH-MEASURING AND PRICE-GONEPUTING MACHINE.

reassess.

To all whom it may concern:

Be it known that we, iVnILIaM F. Gosss- LIXU, HENRY F. PAUK, (f imnmcs M. Kacunn, and O'rro A. HnoKnL, citizens of the United States, and residents of St. Louis, Missouri, have invented certain new and useful Tmprovements in Cloth-Measuring and Priceloinputing hilachines, of which the following is a specification.

()u'r invention relates to in'iprovei'nents in cloth-measuring and price-computing' machines, and relates more particularly to that type of said machines in which a computing drum. is actuated. by the unwinding of cloth from the bolt.

in the dr'awings-Figure 1 is a perspective view of a device embodying our invention. Fig. 2 is a side elevation of the same.

Fig. 3 is an elevation of the opposite side of a device embodying;- our invention. Fig. 4 ]S a front elevation of the same. Figs. 5,

-6 and 7 are views showing; the lineal measurement scale (Fig. (5), the price totals, and sca e oil prices'per yard, ex'nibited through the opening in the front of thehconmtding drum, the illustration being taken when the drum is at rest and the views in the sequence of their numbers presenting a. continuous and complete exhibit of numerals visible from the front of the machine when the machine is so at rest; the views being taken in the order of their numbers from left to right. Fig. 8 is a detail sectional view taken through the window in the l'lOLlSlllg' of the computing drum, and through the periphery of the com mting drum, taken along the line 8-8 of Fig. 4:. Fig. 9 is a similar sect onal View taken along the line i) 5) of Fig. l. Fig. 10 is an enlarged perspective view of the longitudinalv adjusting bar employed in the bolt-receptacle. Fig. it is a loi'lgitudinal' vertical view of the same in section, showing the guide-boards in place. Fig. 12 is a bottom plan view of the exterior attacln'nentis upon the right end of the shaft carrying the computing drum. Fig. 13 is a longitudinal view in vertical mid-section, taken through the com puting drum, the central portion being broken away. Fig. H is an enlarged detail view of the flexible conmotion-between the com mting drum and the upper friction roller, indicating the re- Specification of Letters Patent.

' rods 34.

silient parts exposed by the removal of the lett head ot the housing containing the computing drum. Fig. 15 is an enlarged detail view of the end of the upper friction roller, showing the anti-slipping mechanism with which it; is equipped. Fig. 16 is an enlarged detail. view of the frictional lock with which the right-g1] ide-board is provided. Fig.17is

a top plan view of the wheel mounted on the right end of the shaft carrying the coniputing drum. Fig. 18 is a rear elevation of said wheel and its dog i-nechanism. Fig. 19

is an enlarged perspective view of the arcthe computing drum is adjusted. Fig. 21

is a vertical sectional view of the same taken along the line Qt--21 of Fig. 20. Fig. 22 1s a plan new of the hell-crank lever 83.

Fig. 23 a similar view of the dog 135.

' As shown in the drawin 's we em )lo 7 a frame 2.; con'iprising the end supports 2tl 26 connected togetht-ar by, transverse rods 27, and containing the housing; 28 which forms the cloth receptacle 29; the rear wall 30 of the receptacle 29 is substantially verticahSO while .the front wall 31 is inclined upwardly and rear ardly (see Figs. 1, 2 and 3). At its top the frame 95 supports the heads 32 and 33 connected to each other by means of which are parallel and vertical, we provide a cylinth-ical housing; 35 provided at its front with horizontal windows 36 and 37, sejiarated from each other by means of the vertical window 38, all of said windows beinn surrouiuled by the casing 39, n'ovided Wltll the \tl'iHtll strips 4-0 for the accommodation of the vertical wlndow 38. \Vitlun .t'he cylindrical housing 35 the shaft 41 is mounted, its ends extending; through the heads 32 and 33 and its outer QXl'l'GlllitiGS being provided with halal-wheels 42 and 43.

The drum 4-1 is mounted upon the shaft 4]. by means 01: arms 4115. About its periphery. and preferably at its middle zone, the

drum it is provided with a lineal u'i'easurement scale s t). in the construction illustrated .in the drawings (see Fig. 6), the lincal measurement scale represents 16 yards,

Patented July 16, 1912. Application filed. October 11, 1909. Serial No. 522,003.

Between the heads 32 and 3-3, 85

each yard beingdivided into fractions as desired (see Fig. 6). In the illustrated drum, 16 yards are represented by the initial Zero, that portion of the linealmeasurement scale shown in Fig. 6 indicating measurement lengths of from yard to yard below the initial zero,and 15% yards, 15%, yards, 15 yards and 15% yards above the initial zero. The horizontal line 201 .indicates a line drawn on, or a black wire of thread drawn across the windows 36, 37 and 38, by means of which the various-numerals upon the drum 1-1 are to be read; it registers with the initial zero when the drum 1 1 is at rest. About its periphery and at each side of the lineal measurement scale 16, the drum- 4A is provided withtot-al-price scales 47 and 48 reading from left to right and indicating the total price of agiven length of cloth at agiven price per lineal yard. The pricescale 4E7 indicating price-totals on a basis of from 2 cents to cents per lineal yard, (see Figs. 5 and 6) cates price totals on a basis of from 72. cents to 1.00 per lineal yard (see Figs/6 and 7). Within the windows 36 and 37 we provide stationary price scales 19 (see Figs. 5, 6, 7, and 8) ranging, in the structure illustrated in the drawings, from 26 to.$-l;.00, and indicating the price per yard. As the drawings illustrate, a drum having a lineal measurement scale 4L6 representing 16 yards, the total amounts in alinement with the zero line indicate'the total value of 16 yards of cloth at'the given price per yard indicated by the cost scale 49. Thus, reading upward from the fixed cost scale 19 to the correspondin g numbers upon the total-price scale 4.7 (see Fig. 5), we find the total price of 16 yards of cloth at 2 per yard indicated as 32; the total price of 16 yards. of cloth'at 371-9, indicated 213636.00, and the total price of 16- yards at 70 per yard as $11.20 (see Fig. 6). The nextreading from the totalprice scale is had to the right of the lineal measure scale 16 (see Fig. 6), where we find the price of 16 yards at 72-1 9: per yard indi cated as $11.60, and reading further from the same scale (see Fig. 7 the total price of 16 yards at $3.98 per yard is given as $63.68. I

The revolution of the computing drum 14 is accomplished by means of the withdrawal of the cloth from its bolt and contained in the receptacle 29, over the bracket 50 carried at the front of the frame 25. Parallel to the bracket 50 we provide two parallel friction rollers 51 and 52 journaled in the bearings 53 and 5 1; the rollers 51 and 52 being in fixed position, and the upper friction roller being adapted to have frictional contact with the upper faces of the rollers51 and (see Figs. 2 and 3). The.

upper frictional roller 55 is provided with the crank 56 having a handle 57, and the while the price-scale 4:8 indi- "meral '92,

roller 55 is mounted upon the shaft 58. At its left extremity the shaft 58 is provided with the bevel gear 59 (Fig. 14:) intermeshing with the bevel gear 60 mounted upon the shaft 61. The shaft 61 at its upper extremity receives a flexible shaft 62, and its connecting mechanism, which is illustrated in the drawings as being at the left extremity of the shaft 58, is contained in a housing 63 carried by the lever arm 6& which is pivotally mounted upon the frame 25 at the point indicated by the numeral 65. The housing 63 isprovided. at its upper extremity with the opening 66 through which the flexible shaft 62 extends. The flexible shaft 62 enters the housing 35 through the opening 67 in its bottom (see Fig. 1 1) and ex tends upward to the point where it is fixed in the shaft 68 provided with the worm gear 69 and journaled in the brackets 70 and 71. The worm 69 intermeshes with the worm-wheel 72, which is loosely mounted upon the shaft 11. The outer face of the worm wheel 72 is normally in contact with the disk 73 (Fig. the shaft 41. Upon the inner face of the worm-wheel 72 the disk 74, slidably mounted upon the shaft 11 by means of a key 159 and registering in size with the disk 73, is normally thrust outward by means of the coil spring 75, to effect a frictional engagement with the worm-wheel 72. The disk 7 1 is provided with a disk 76 journaled upon the tubular collar 77 whose inner end is secured by the vertical support 78. The coil spring 7 5 is mounted about the collar 77, at its outer extremity, exerting pressure upon the flanged collar 79 with which the disk 76 is provided. The disk 76 is connected to thecollar 79 by means of the annular web 80, thus forming'the grooved depression 81 in. which the yoke 82 (see Fig. mounted, the yoke 82 being provided with a bell-crank lever 83' whose lower arm extends outwardly through the opening 84: (Fig. 13) in the head The head 32 is provided upon its inner face with the bracket 85 upon which the bell-crank lever 83 is pivotally mounted. The lower arm of the bell-crank lever 83 is provided with a horizontal slot 86 provided at its mouth with the vertical roller 87.

The upper friction roller 55 is journaled at its right extremity in the curved support 88 Fig. 3 whose format-ion corresponds to that of the bracket 64; of the support 88 and bracket Mare pivotally mounted at the points indicated by the numerals 65 and 90, which points of pivotal support are in the same horizontal plane. An arc-shaped tapering lever bar 91 is pivotally mounted upon the outer face of the bracket 64 as indicated by the nuits thickness tapering toward its upper terminal 93 Fig. 19; and the har 9l and the inner ,nds,

22) is loosely passes through the horizontal slot 86 in the lower arm ofthe bell-crank lever 83 (see Figs. 2 and 13).

By means of the construction thus described, when the upper friction roller is thrown upwardly and out. of engagement with the upper surfaces of the lower friction rollers 51 and 52, the lever 91 contacting with the outer face of the head 32 and with the roller 87, thrusts the lower arm of the bell-crank lever 83 outwardly, driving the yoke 82 inwardly, releasing the worm-' wheel 72 so as to permit it to revolve freely upon the shaft 41, so interrupting the connection between the upper friction roller and the worm-gear-69 through the flexible shaft 62. The operative connection between the computing drum 44 and the 'upper'friction roller 55 being thus completely interrupted, is restored by the act of lowering the upper friction roller 55 into its active position, in contact with the faces fof the lower friction rollers 51 and 52.

For the expeditious shifting of position of the friction roller and its connections, and to the end of locking said friction roller in either of its two positions, operative or inoperative, we have provided a lever arm 94 Fig. 2'pivotally mounted uponthe head 32 by the pin 95, and terminatin at its free end in the handle 96. A connecting bar 97 ispivotally connected to the bracket 64 by the pin 98 and to the lever arm 94 by the rod 99. Upon the inner face of the lever arm 94 we provide a pronged fork 100 which is pivotally mounted upon the rod 99, and is provided with an outwardly projecting handle 101 normally held away from the lever arm 94 by means of the coil spring 102. The lower engaging hooks 103 and 114 of the pronged fork 100 and 111 en gage with the pin 104 when the upper friction roller is in operative position. The upper hook 105 engages with the pins 106 and 117 when the upper friction roller is in its elevated or inoperative position (as shown by dot-ted lines in Fig. 3).

The lever arm 94 is connected to a cor responding lever arm 107 Fig. 3 by the rod 99, the lever arm 107 being provided with the handle 108 and being connected to the support 88 by the bar 109, whoselowe'r end is secured to the support 88 by means of the pin 110, its upper end l'ieing'secured to the outer face of the level arm v1.07 by the rod 99. The pronged fork 111 is alsoinounted on the lever arm 10'? by means of the red 99, and is provided with the outwardly projecting handle 112, normally held away from the lever arm 107 by means of the coil spring 113. The lower hook 114 of the pronged fork 111 engages with the pin 115 lock the upper friction roller 55 in operative position while the upper hook 116 of the lever arm 1.07 engages with the pin 117 to lock the upper friction roller 53 in its elevated or inoperative position.

In order to keep the bolt of cloth which is being measured from shifting from side to side, we have provided the guideboard 118 mounted upon the inner and tip-turned end 119 of the adjustingbar 120 (see Figs. 1, 2 and 10'), thcadjusting bar 120 being provided at its opposite extremity with the handle 121. Within the receptacle 29 i provide a fixed guide-lmard 1:22 yn'ovided, with the slot through which the longitudinal adjusting bar 120 passes. Upon the outer face of the fixed guide-board we provide a vertically mounted tube 124 closed at its upper end as indicated by the numeral 125 Fig. 16, and containing a coiled spring 126 whose lower end operates against the plunger 12? to thrust the same downwardly and into frictional contact with the upper face of the longitudinal adjusting bar 120. The tube 124 is provided with a'slot 128 through which a pin 129 extends in the plunger 12?. The pin 12S) maybe raised to permit the inward or outward adjustment of the longitudinal adjusting bar 120.

To prevei'it the retrograde n'iovemcnt of the con'iputing drum 44, we have provided the means illustrated in Figs. 12. 13, .17 and 1.8. On the outer face of the head 83 is provided a screw plug 130 whose inner end is screwed into position in the face-plate 181. mounted upon the outer face of the head 33. The plug 130 is SCl'QW-t'l'll'GEltlGtl horizontally to receive the screw-top 132 which is provided with an outwardly projecting flange 133 at its outer end. The plug 180 is screw-threaded to receive the set-screw 13-1- by which the screwstop 1.32 may be locked in position (see Figs. 20 and 21). A spring dog 135 Figs. 17 and is mounted beneath the plate 136 by means of the pin 138. The outer end of the plate 136 secured to the hand wheel 43 by means of;the pin 137. The dog' 185 is normally kept in position by means of the flat spring .189. Said dog 135 is also provided witha lateral projecting lug 140 (see Fig. 23), and is pivotally 'mounted at its outer end by the pin 138 passing through the perforation 141. The plate 136 is bent overat its end to form the bracket 142. A coiled spring 143 is mounted around the lug 140 and its opposite end is held within the bracket 142 by means of the screw 144. The projecting point 145 of the dog 135 is adapted to engage with the pro jection 133 of the screw 132 hereinabove described.

By means of the adjustment of the screw 132, the computing drum 14 is set so that its zero (0) line appears midway the height of the windows 5-36, 37 and 38. l'n order that the computing drum may automatically re-' turn to its initial position indicated in Figs.

we A

5, (Sand 7, with the zero line mid-way the height of the windows 36, 37 and 38, we

have provided a counterbalancing weight .146 Fig. 13 suspended by a chain 147, the end of which chain 147 is attached to the cylindrical 'collar 148'bymeans of the pin 149; The collar 148 is slidably and revolubly mounted upon the shaft 41 and is fixed ,in position by means of the set-screw 150. The counterbalancingweight 146 is so suspended, by employing a chain 147 of such length, that the weight 146 will be drawn "upward into contact with thecollar 148 by a single revolution of the computing drum Where the drum 44 is revolved more than once, the counterbalancing weight 146 will be drawn upwardly and over the collar 148 and dropped into its original position. By means of this device, the shaft 41 carrying with it the drum 44 will return to .its initial position whenever the operative connection between said computing drum 44 and the upper friction rol er 55 is interrupted by the elevation of the lever arms 94 and 107, as hereinbefore described.

It is obvious that the counterbalancing mechanism described in the preceding paragraph must be so constructed as to be oper-- .Inediatelydrop to its former position with its load upon the depending end of the'chain- 147. By reason of this proportioningthe length of the chain to the circumference of the collar 148, the entire mechanism is contained within the limits of space afforded by the interior of the drum 44, and, should the drum, in the operative use of the device, accomplish more than one revolution,

and no matter how many revolutions more than one are thus accomplished, the counterbalanc'ing weight 146 is always so positioned as to restore the drum 44 to its initial or zero (0) position, when the operative conne'etion between the drum and the upper friction roller v is interrupted, by passing through less than one complete revolution.

To insure tlre comparatively frictionless rotation of the-drum 44, we have provided-the shaft 41 with the conical collars 151i and 152. The face-plate 131 is provided with the' annular recess 153 containing the ballbearings 154.. Similarly, the head 32 is pro-- vided with the face-plate 155 havingthe 1 annular chamber 156 provided with ball-" bearings 157.

The modeof' operation of the device of our invention will be readily understood from the foregoing description. The bolt of cloth to be measured is deposited .in the receptacle 29. The guide-board 118 is adjusted by means of the handle 121 on the longitudinal adjusting bar 120. The end of the cloth is drawn outwardly between the lower friction rollers 51 and 52 and the upper friction roller 55. The-crank 56 is revolved by the handle 57 to draw the cloth ,outwardly, movement being simultaneously imparted to the computing drum 44 by means of the flexible shaft 62. The desired length of cloth having been measured, as indicated by observation through the vertical window 38, the total selling price of such length of cloth so measured is made visible by-reference to the price scale 49 and upon which the price per yard will appear,

while the total price of thepiece'of cloth measuredwill be found upon ,the scale 47, immediately above the figures indicating the price per yard The cloth being-cut by means of any suitable cutting instrument, said cutting. instrument being guided by the groove 158 on the shelf or bracket 50, the upper'fric-ti'on roller,55- is thrown upward, releasing the end of the cloth and disconnecting the mechanism actuating the drum 44, which drum 44 is then restored by reason of the counterbalancing weight 146 to its zero (0) or initial position. The bolt of cloth is then removed from the receptacle 49.

The upper friction. roller55 as illustrated in Fig. 15 is provided with means to insure. its frictional engagement with the .inner face of t-h bracket 64'. At one'of. its eX- tremities the upper friction roller 55 is provided with slotted recesses 159 and 160 in which pins 161 and 162 are slidably mounted. The pins 161 and-162 project from the inner face of the cylindrical drum 163 which is mountedabout the shaft 58. The inner face of thedr'um 163 is cut away as indicated by the numeral 164 to permit the inner end of the coiled spring 165 to exert its pressure upon the end of the friction roller 55, the outer end of the coiled spring 165 being held by the inner face of theouter head 166 of-the drum 163. The curved sup- 'port 88 is provided with the opening 167 through whichthe shaft 58 passes and upon the inner face of the curved support-88 is provided a flanged disk 167 secured to. the inner face of the support 88 by means of pins 168 and 169, to secure the diskagainst rotation. The shaft 58 is provided with the integral circular collar 170 whose outer edges are beveled as indicated by the numeral 171 to register with the inner face of the disk 167, as shown in Fig. 15. The lateral pressure exerted by the coiled spring 165 thusprevents the accidental rotation of the upper friction roller 55, and guards against the accidental slipping of said roller 55.

Having thus fully described our invention what we claim as new and desire to have secured to us by the grant of Letters Patent, is:

1. In a cloth-measuring and price-computmg machine, the combination of a frame; a receptacle adapted to receive a bolt of cloth longitudinally; two parallel lower friction rollers mounted in said frame at the mouth of said rcccptacle;ashaft mounted trai'lsversely in the frame; a price-computing drum mounted on said shaft; an upper friction roller pivotally mounted in the frame and arranged to contact with the up per faces of the two lower friction rollers; a crank whereby said upper friction roller is actuated; means for locking said upper friction roller in operative contact with said lower friction rollers; means for locking said upper frictionroller in a position out of contact with said lower friction rollers;

and a flcxibleoperating connection between the said upper friction roller and said'conr puting drum said computing drum adapted to be thrown out of operation by the elcvation of the upper friction roller substantially as described.

2. In a cloth-measuring and price-computing machine the combination of a frame; a receptacle adapted to receive abolt of cloth longitudinally; a fixed guide-board transversely mounted in said receptacle; another guide-board adjustably and transversely mounted in said receptacle; two parallel lower friction rollers mounted in said fra at the mouth of said receptacle; a siaft mounted transversely in the frame; a price-computing drum mounted on said shaft; an upper friction roller pivotally mounted in the frame and arranged to contact with the upper faces of the two lower friction rollers; a crank whereby said upper friction roller is actuated; means for locking said upper friction roller in operative contact with said lower friction rollers; means for locking said upper friction roller in a position out of contact with said lower friction rollers; and a flexible. operating connection between the said upper friction roller and said computing drum, said com: puting drum adapted to be thrown out ot operation by the elevation of the upper fr1ction roller, substantially described.

In a cloth-measuring and price-con1- puting machine, the combination of a frame; a receptacle adapted to receive a bolt of cloth longitudinally; two parallel lower friction rollers mounted in said frame at the mouth of said receptacle; a shaft mounted transversely in the frame; a pr1ce-com-' puting' drummounted on said shaft; an upper friction roller pivotally mounted in the frame and arranged to contact with the up per face of the two lower friction rollers; said upper friction roller bemgprovided with self-contained frictional means to pre vent slipping; a crankwhereby said upper friction roller is actuated; means for lock mg said upper friction roller in operative contact with said lower friction rollers; means for locking said upper friction roller in a position out of contact. with said lower friction rollers; and. a flexible operating connection between the said upper friction roller and said computing: drum said computing drum adapted to be thrown out of connection by the elevation of the upper friction roller, substantially as described.

t; In a cloth-measuri11g and prime-computing machine, the combination of a frame; a receptacle adapted to receive a bolt of cloth longitiulinally; guide-boards adjustably mounted. in the ends of said receptacle: two parallel lower friction rollers mounted in said frame at the mouth of said receptacle; a shaft mounted transversely in the frame; a pricc-computing drum mounted on said shaft; an upper friction roller pivotally mounted in the frame and arranged to contact with the upper face of the two lower friction rollers; said upper friction roll-er being provided with self-contained frictional means to prevent slipping; a crank whereby said upper friction roller is actuated; means for locking said upper frictionroller in operative contact with said lower friction rollers; Ineans'for locking said upper friction roller in a position out of contact with said lower friction rollers; and a flexible operat ing connection between the said upper friction roller and said computingdrum said computing drum adapted to be thrown out of operation by the elevation of the upper friction roller, substantially as described.

5. In a device of the class described, a frame; a receptacle formed in the frame;

two lower horizontal and parallel friction rollers mounted in the mouth of the receptacle; an upper fr ction roller pivotally carried by' the frame and having operative frictional contact with the upper faces ofthe lower rollers; a computing drum revolubly mounted in the frame; means adapted to convey rotative movement from the upper friction roller to the drum; and a clutch mechanism whereby the drum is released from operative connection with the upper friction roller 'when said roller is removed from contact with the lower friction rollers substantially as described.

6. In a device of the class described, a frame; a receptacle formed in thefrau'le; two lower horizontal and parallel friction rollers mounted in the mouth of the receptacle; an upper friction roller pivotally carried by the frame and having operative frictional. contact with the upper faces of the lower rollers; a computing drum revolubly mounted in the frantic; means adapted to convey rota tire movement from the tumor friction rollers mounted parallel with the" bolt; an upper friction roller pivotally car- 5 ried by 'the frame and having operative frictional contact with the upper faces of the lower rollers; a computing drum'revolubly mounted'inthe frame;'me'ans adaptedto convey rotative movement from the upper friction roller to the drum; and a clutch mechanism whereby the drum is released from operative oconnectionfwith .t-he' upper friction roller when-said roller is removedv from contact with the lower friction rollers, substantially as described.

8. I11 a device of the 'class described, a:

frame; means carried by .the frame for tion; two lower horizontal and-parallel friction rollers mounted parallelwith the bolt;

,an upper friction roller pivotally carried by the frame and having operative fri'c tional contact with th'e uppe'r facesof the lower rollers; a computing drum revolubly, .35 mounted in the frame; means adaptedlto convey rotative movement fronrthe. upper friction roller to the drum; and a clutch mechanism whereby the. drum isreleased from operative "connection with. the upper.

friction roller when. said roller is removed from contact with the lower friction rollers and automatic means forrestoring the drum to its initial operative position when so released, substantially as described. i 9. In a device of the class described, a frame; a receptacle formed in the frame; two lower' horizontal andparallel friction rollers mounted in the mouth of the receptacle; an upper friction roller pivotally carried by the frame and having operative frictional contact with the upper faces of the lower rollers means for locking said upper friction roller in and out'ofits operative pos tion; a' computing drum' revolubly mounted in the frame; means adaptedto friction roller to'the drum; and af'clutch mechanism whereby the drum is released from operatlve'connec'tion. with the. upper '60 friction roller when said roller is removed .means for automaticallyrestoring the drum frame; means carried by the frame for holdlower 'horizontal' parallel friction rollersmounted 'a'lin'ementwith the-bolt; an up- ,per friction roller; pivotallyfc'arried by the frame and having" operative frictional con ,'1 *ol'l-e1 '."in-and .out of its operative position; holding a bolt of cloth 1n revoluble 'posi f nection with the upper friction roller when [said roller is removed'from contact with .contact with the upper faces of the lower with the lower friction rollers; and means 'convey rotative movement from the upper.

rollers mounted in" the. mouth of the receptacle; an upper friction roller pivotally car ried by the frameand. having operativefrictional contact with the upper faces of the lowerrollers; means'for locking said upper 7 friction roller .in'and out of' its operative position; computing drum revolubly mounted in the --frame; means adapted to convey rotative movement from the upper friction roller to the drum; a clutcl1.mecl1a nism whereby the drum is released from operative connection with the upper friction roller whensaid roller'is removed from contact with the lower friction rollers; and

to its initial operative position when so re leased, substantially as described.

1 1,; In a device of the class described, a

inga bower cloth in revol-uble position; two

tactwith thefupperfaces of the lowerrollers; meansfoi locking saidfupper friction a computingdrumrevolubly mountedin the frame; means adapted to convey rotative movement from the upper friction rol'ler to the :drum; and a clutch mechanism whereby the drum is released from operative conthe lower friction'rollers; substantially as described. v p v 12. Ina device of'the class described, a frame; means carried by the frame for holding a bolt of cloth in revoluble position; two lower horizontal and parallel friction'rollers mounted in alinement with the bolt an upper friction roller pivotally carried by the frame and having operative, frictional rollers; means for locking said upper friction roller in and out of its operative position; a computing drum revolubly mounted in the frame; means adapted to convey rotative. movement from the upper friction roller to the drum ;and a clutch mechanism whereby the drum is released from operative connection with the upper friction roller when said roller is removed from contact for automatically restoring the drum to its initial operative position whenso released, substantially as described.

' .13. Ina -cloth-measuring and price-computing machine, a frame; means carried by the frame for holding a bolt of cloth in position to be unwound; a cylindrical housing carried by the frame having a longitudinal aperture; a computing drum revolubly mounted in the housing; and provided upon its periphery with scales adapted to be read through the aperture in the housing; a fixed scale of unit prices mounted in the aperture bolt of cloth in revoluble position; a price- "computing drum revolubly mountedin the frame; said drum having a Weight-actuated means whereby itis restored to its initial zero; and means whereby said price-computing drum is revolved by the Withdrawal of the clothfrom the bolt, substantially as described.

15. In a cloth neasuring and price-computing machine, the combination of a frame;

means supported by the frame for holding a belt of cloth in revoluble position; a pricecomputing drum revolubly mounted in the frame; said drum having means whereby it is restoredto'its initial zero; a cushioned and adjustable stop whereby said drum may be adjusted to fix its initial zero at the proper starting position; and means Whereby said 'price-computing drum is revolved by the Withdrawal of the cloth from the bolt, substantially as described.

In testimony whereof, we have signed our names to this specification, in presence of two subscribing Witnesses. 1

WILLIAM F. GOESSLING. HENRY E. PAUK. CHARLES M. KACHEI OTTO A. HECKEL. Witnesses JAMES L. HOPKINS, L. A. L. MoINrYnE.

copies of this patent may be obtained for five'cen'ts each, by addressing the Commissioner of Patents.

' Washington, D. G. 

